KR101443245B1 - Devices for low-voltage circuit breaker testing - Google Patents

Abstract

The present invention relates to a device for testing a low-voltage circuit breaker and, more specifically, to a device for testing a low-voltage circuit breaker capable of testing various types of equipment by supplying power according to the respective control power type. The present invention includes a control power unit which receives external power and converts the power into AC or DC control power; a selection switch unit which selects equipment to be tested and applies or blocks the converted control power by the control power unit; an output unit which is connected to the selection switch unit and outputs the control power to the selected test-target equipment; and a test unit which checks the operation state of the selected test-target equipment, connects a measuring instrument, and acquires test data.

Description

[0001] The present invention relates to a low-voltage circuit breaker testing apparatus,

The present invention relates to a low-voltage circuit breaker testing apparatus, and more particularly, to a low-voltage circuit breaker testing apparatus capable of testing various types of test equipment by supplying power to each type of control power source.

In the past, numerous applications and disclosures have been made in addition to Korean Patent No. 0540204, 'Module assembly type low pressure power module (MC's semi)'.

BACKGROUND OF THE INVENTION [0002] The prior art relates to a low-voltage power module providing a removable adapter capable of electrically and mechanically connecting a distributor circuit breaker, comprising a cabinet defining an interior space of a predetermined size and a branch comprising one or more removable adapters electrically and mechanically connected A busbar device, and a plurality of distribution breakers electrically and mechanically connected to the removable adapter.

Due to the aging of the equipment, there is a problem in the distribution of the MCC electric circuit, the control power source and the control circuit jack for each MCC type are different, and a lot of measuring equipment is required for checking the electric circuit integrity. And delay in maintenance time, and damage to the equipment due to inadvertent connection of the MCC electric circuit and insufficient safety.

It is an object of the present invention to provide a low-voltage circuit breaker testing apparatus capable of testing various types of low-voltage circuit breakers by a control circuit jack conversion that supplies control power for each type of test equipment to be tested have.

A selection switch unit for selecting or inputting the test equipment to be tested and turning on or off the control power converted through the control power unit; An output unit connected to the selected test equipment to output control power supplied to the selected test equipment, and a test unit for confirming the operation state of the selected test equipment and connecting test equipment to the test equipment.

Preferably, the control power source unit includes a main switch connected to the main switch for inputting or blocking an external power source, a first control power source for inputting AC 220 V of an external power source at the primary side and a control power source of AC 120 V at the secondary side, A second control power conversion module connected to the main switch and receiving an external power and outputting a first DC control power of DC 125V; a second control power conversion module connected to the main switch and receiving an external power, And a third control power conversion module for outputting power.

Preferably, the selection switch unit includes a switch module for receiving any one of the first to third test equipment selection input signals from the outside, an AC control power supply for the control power supply unit for receiving the first test equipment selection input signal of the switch module, A first DC input relay for receiving the first DC control power of the control power unit and a second DC input relay for receiving the second DC control power are connected to the switch module A second relay module for outputting the first DC control power and the second DC control power according to a second test equipment selection input signal, an AC input relay for receiving the AC control power of the control power unit, A third relay module for causing the DC input relay to output the AC control power and the second DC control power by a third test equipment selection input signal of the switch module, It characterized in that it comprises.

Also preferably, the test section is characterized by indicating the operation state of the test equipment or the contact resistance in numerical form.

Also, preferably, the control power unit is converted into a control power of 120 V AC, 125 V DC or 24 V DC depending on the power source type of the test equipment.

Preferably, the output unit further includes a voltmeter for indicating a control power supplied to the selected test equipment.

Preferably, the test equipment is any one of a main contact tester, an auxiliary contact contact resistance tester, and a coil resistance tester of a low-voltage circuit breaker.

As described above, according to the present invention, since the control circuit jacks for each test equipment are integrally installed so as to test various types of low-voltage circuit breakers by supplying the control power for each type of the test equipment to be tested, Economical, and easy to carry, so that a field worker can effectively check for an abnormality.

1 is an overall configuration diagram of a low-voltage circuit breaker testing apparatus according to an embodiment of the present invention.
2 is a circuit diagram of a low-voltage circuit breaker testing apparatus according to an embodiment of the present invention.
3 is a circuit diagram of an MCC1 type control jack according to an embodiment of the present invention.
4 is a circuit diagram of an MCC2 type control jack according to an embodiment of the present invention.
5 is a circuit diagram of an MCC3 type control jack according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to exemplary drawings attached hereto.

FIG. 1 is an overall configuration diagram of a low-voltage circuit breaker testing apparatus according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of a low-voltage circuit breaker testing apparatus according to an embodiment of the present invention.

1 and 2, the low-voltage circuit breaker testing apparatus includes a control power source unit 100, a selection switch unit 200, an output unit 300, and a test unit 400.

The control power unit 100 receives an external power and converts it to an AC or DC control power source. The control power unit 100 receives AC 220V from the external power source and converts the AC power to 120V, DC 125V, and DC 24V according to the control power type of the test equipment.

The control power source unit for performing these functions includes a main switch 110, a first control power conversion module 120, a second control power conversion module 130, and a third control power conversion module 140.

The main switch 110 receives AC 220V of the external power source and inputs or cuts the AC 220V.

The first control power conversion module 120 is connected to the main switch and converts AC 220 V of the external power source to a control power of AC 120 V on the primary side and outputs it to the control power of AC 120 V on the secondary side.

The second control power conversion module 130 is connected to the main switch, and receives the external power source AC 220V and outputs DC 125V.

The third control power conversion module 140 is connected to the main switch and outputs DC 24V by receiving the external power source AC 220V.

The selection switch unit 200 selects the test equipment to be tested and inputs or blocks the control power converted through the control power unit. Here, the test equipment is any one of a main contact tester, an auxiliary contact contact resistance tester, and a coil resistance tester of a low-voltage circuit breaker.

The selection switch unit 200 for performing these functions includes a switch module 210, a first relay module 220, a second relay module 230 and a third relay module 240.

The switch module 210 receives any one of the first to third test equipment selection input signals from the outside.

Here, the switch module receives + 24V as a reference voltage and receives any one of the first to third test equipment selection input signals MCC1 to MCC3 according to a selection input signal from the outside

The first relay module 220 receives the AC control power of the control power source and outputs the AC control power according to the first test equipment selection input signal of the switch module.

Here, the first relay module is configured such that when the first test equipment selection input signal (MCC1) of the switch module is input, the relay is driven to receive and output the secondary AC 120V of the first control power conversion module 120 of the control power unit.

The second relay module 230 may include a first DC input relay receiving the first DC control power from the control power source and a second DC input relay receiving the second DC control power from the second test equipment selection input signal of the switch module To output the first DC control power supply and the second DC control power supply.

In this case, the second relay module is driven by the first DC input relay receiving the first DC control power when the second test equipment selection input signal (MCC2) of the switch module is inputted to the second control power conversion module 130 ), And outputs DC 125V. The second DC input relay receiving the second DC control power is driven to receive the control power of the third control power conversion module 140 and output DC 24V.

The third relay module 240 includes an AC input relay for receiving the AC control power of the control power source and a DC input relay for receiving the second DC control power, 2 DC control power supply.

Here, when the third test equipment selection input signal (MCC3) of the switch module is inputted, the third relay module drives the AC input relay receiving the AC control power to input the control power of the first control power conversion module of the control power source Receives AC 120V, and the DC input relay receiving the second DC control power is driven to receive the control power of the third control power conversion module and output DC 24V.

The output unit 300 is connected to the selection switch unit and outputs control power supplied to the selected test equipment. In the present embodiment, the control unit 300 is set as a control jack. These control jacks are as shown in FIG. 3 to FIG. 5 as a circuit for each type of test equipment.

Here, the output unit of the present embodiment can be connected to a selection switch unit to connect a voltmeter (DC VOLTMETER), which indicates the control power to the selected test equipment, to check the control power output.

The test unit 400 is configured to check the operation state of the selected test equipment and to connect test equipment to acquire test data, and to display the operation state or the contact resistance of the test equipment in numerical values.

The test section displays the operation status of the test equipment selected by either the main contact tester of the low voltage circuit breaker, the auxiliary contact contact resistance tester or the coil resistance tester, or the LED, and the magnet contact resistance or the magnet auxiliary contact or the magnet The coil resistance can be measured and displayed as a numerical value.

In the low-voltage circuit breaker test apparatus according to the present embodiment, first, the main power switch is turned off, and then the input power is connected. In the OFF state, the control jack is connected to the test equipment (MCC) specification. At this time, make sure that the input power of the test equipment is the same as the output specification of the low-voltage circuit breaker test equipment. After selecting MCC1, MCC2, MCC1, MCC2, MCC3, MCC1, MCC2, MCC3, MCC3, MCC3, MCC3, MCC3, MCC3, MCC3 and MCC3, It is possible to test and repair various types of low-voltage circuit breakers with the control jacks of the test equipments.

100: control power supply unit 110: main switch
120: first control power conversion module 130: second control power conversion module
140: third control power conversion module 200: selection switch
210: switch module 220: first relay module
230: second relay module 240: third relay module
300: output unit 400: test unit

Claims (7)

A control power source for receiving an external power source and converting it into an AC or DC control power source;
A selection switch unit for selecting a test equipment to be tested and turning on or off the control power converted through the control power unit;
An output unit connected to the selection switch unit to output control power supplied to the selected test equipment; And
And a test unit for confirming an operation state of the selected test equipment and connecting test equipment to obtain test data,
Wherein the control power unit includes a main switch for inputting or blocking an external power source; A first control power conversion module connected to the main switch for receiving AC220V of an external power source at a primary side and for outputting a control power of AC120V at a secondary side; A second control power conversion module connected to the main switch for receiving an external power supply and outputting a first DC control power of DC 125V; And a third control power conversion module connected to the main switch for receiving external power and outputting a second DC control power of DC 24V.
delete The method according to claim 1,
The selection switch unit,
A switch module receiving any one of first to third test equipment selection input signals from outside;
A first relay module for receiving an AC control power of the control power supply unit and outputting AC control power by a first test equipment selection input signal of the switch module;
Wherein the first DC input relay receiving the first DC control power of the control power supply unit and the second DC input relay receiving the second DC control power are connected to the first DC control unit by the second test equipment selection input signal of the switch module, A second relay module for outputting a power source and a second DC control power source; And
An AC input relay for receiving the AC control power of the control power unit and a DC input relay for receiving the second DC control power are connected to the AC control power source and the second DC control power source by the third test equipment selection input signal of the switch module, And a third relay module for outputting the low-voltage circuit breaker.
The method according to claim 1,
Wherein the test unit comprises:
Wherein the operating condition of the test equipment or the contact resistance is expressed numerically.
The method according to claim 1,
Wherein the control power supply unit is supplied with a control power of AC 120 V, DC 125 V, or DC 24 V according to the power supply type of the test equipment.
The method according to claim 1,
Further comprising a voltmeter for indicating the control power supplied to the selected test equipment.
The method according to claim 1,
Wherein the test equipment is any one of a main contact tester, an auxiliary contact contact resistance tester, and a coil resistance tester of a low-voltage circuit breaker.

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